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|
integer function ximcot (device, name, type)
integer*2 device(*)
integer*2 name(*)
integer*2 type(*)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer sp
integer cmsg
integer dev
integer buf
integer msglen
integer*2 connet(255 +1)
integer ndopen
integer reopen
integer xstrln
integer ximred
logical streq
external ximonr
integer fdin
integer fdout
integer mode
integer nbuf
integer nr
integer nw
integer*2 buffer(2047+1)
integer ximepa
integer ximstt
integer oldont
integer ximfd
integer ximjmp(64 )
integer ximert
logical xerpop
logical xerflg
common /xercom/ xerflg
common /ximfd/ fdin, fdout, mode, nbuf, buffer, nr, nw
common /ximcom/ ximfd, ximjmp, ximepa, ximstt, oldont
common /ximecm/ ximert
integer*2 st0001(6)
integer*2 st0002(5)
integer*2 st0003(12)
integer*2 st0004(8)
integer*2 st0005(12)
integer*2 st0006(21)
integer*2 st0007(10)
integer*2 st0008(8)
save
integer iyy
data st0001 / 37,115, 58, 37,115, 0/
data st0002 /116,101,120,116, 0/
data (st0003(iyy),iyy= 1, 8) / 99,111,110,110,101, 99,116, 32/
data (st0003(iyy),iyy= 9,12) / 37,115, 0, 0/
data st0004 /120,105,109,116,111,111,108, 0/
data (st0005(iyy),iyy= 1, 8) /117,110,105,120, 58, 37,115, 58/
data (st0005(iyy),iyy= 9,12) / 37,115, 0, 0/
data (st0006(iyy),iyy= 1, 8) / 82,101, 99,111,110,110,101, 99/
data (st0006(iyy),iyy= 9,16) /116,101,100, 32,111,110, 32, 39/
data (st0006(iyy),iyy=17,21) / 37,115, 39, 10, 0/
data (st0007(iyy),iyy= 1, 8) /114,101, 97,100,121, 32, 37,115/
data (st0007(iyy),iyy= 9,10) / 0, 0/
data st0008 /120,105,109,116,111,111,108, 0/
data ximert /0/
call smark (sp)
call salloc (buf, 1023 , 2)
call salloc (cmsg, 1023 , 2)
call salloc (dev, 255 , 2)
call aclrc (memc(buf), 1023 )
call aclrc (memc(cmsg), 1023 )
call aclrc (memc(dev), 255 )
call aclrc (buffer, 2047)
fdin = 0
fdout = 0
nbuf = 0
nr = 0
nw = 0
call sprinf (memc(dev), 255 , st0001)
call pargsr (device)
call pargsr (type)
if (.not.(streq (type, st0002))) goto 110
mode = 1
goto 111
110 continue
mode = 2
111 continue
call xerpsh
fdin = ndopen (memc(dev), 2)
if (.not.xerpop()) goto 120
call sfree (sp)
ximcot = (-1)
goto 100
120 continue
fdout = reopen (fdin, 2)
call sprinf (memc(cmsg), 1023 , st0003)
call pargsr (name)
msglen = xstrln(memc(cmsg))
call ximmee (st0004, memc(cmsg))
if (.not.(ximred (memc(buf), msglen) .eq. -2)) goto 130
call sfree (sp)
ximcot = (-1)
goto 100
130 continue
call xfcloe(fdout)
call xfcloe(fdin)
call sprinf (connet, 1023 , st0005)
call pargsr (memc(buf+8))
call pargsr (type)
call xerpsh
fdin = ndopen (connet, 2)
if (.not.xerpop()) goto 140
call sfree (sp)
ximcot = (-1)
goto 100
140 continue
fdout = reopen (fdin, 2)
if (.not.(.true.)) goto 150
call eprinf (st0006)
call pargsr (connet)
150 continue
call sprinf (memc(cmsg), 1023 , st0007)
call pargsr (name)
msglen = xstrln(memc(cmsg))
call ximmee (st0008, memc(cmsg))
call onerrr (ximonr)
call sfree (sp)
ximcot = (0)
goto 100
100 return
end
subroutine ximdit (sendqt)
integer sendqt
integer fdin
integer fdout
integer mode
integer nbuf
integer nr
integer nw
integer*2 buffer(2047+1)
common /ximfd/ fdin, fdout, mode, nbuf, buffer, nr, nw
integer*2 st0001(8)
integer*2 st0002(5)
save
data st0001 /120,105,109,116,111,111,108, 0/
data st0002 /113,117,105,116, 0/
if (.not.(sendqt .eq. 1)) goto 110
call ximmee (st0001, st0002)
110 continue
call xffluh(fdout)
call xfcloe(fdin)
call xfcloe(fdout)
fdin = 0
fdout = 0
100 return
end
subroutine ximmee (object, messae)
integer*2 object(*)
integer*2 messae(*)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer sp
integer msgbuf
integer msglen
integer olen
integer mlen
integer ip
integer xstrln
logical streq
integer*2 st0001(8)
integer*2 st0002(6)
integer*2 st0003(4)
integer*2 st0004(4)
save
data st0001 /120,105,109,116,111,111,108, 0/
data st0002 /115,101,110,100, 32, 0/
data st0003 / 32,123, 32, 0/
data st0004 / 32,125, 0, 0/
olen = xstrln(object)
mlen = xstrln(messae)
msglen = olen + mlen + 20
call smark (sp)
call salloc (msgbuf, msglen, 2)
call aclrc (memc(msgbuf), msglen)
if (.not.(streq (object, st0001))) goto 110
call xstrcy(messae, memc(msgbuf), msglen)
goto 111
110 continue
ip = 0
call amovc (st0002, memc(msgbuf+ip), 5)
ip = ip + 5
call amovc (object, memc(msgbuf+ip), olen)
ip = ip + olen
call amovc (st0003, memc(msgbuf+ip), 3)
ip = ip + 3
call amovc (messae, memc(msgbuf+ip), mlen)
ip = ip + mlen
call amovc (st0004, memc(msgbuf+ip), 2)
ip = ip + 3
111 continue
msglen = xstrln(memc(msgbuf))
call ximwre (memc(msgbuf), msglen)
call sfree (sp)
100 return
end
subroutine ximalt (text, ok, cancel)
integer*2 text(*)
integer*2 ok(*)
integer*2 cancel(*)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer sp
integer msg
integer*2 st0001(15)
integer*2 st0002(6)
save
integer iyy
data (st0001(iyy),iyy= 1, 8) /123, 37,115,125, 32,123, 37,115/
data (st0001(iyy),iyy= 9,15) /125, 32,123, 37,115,125, 0/
data st0002 / 97,108,101,114,116, 0/
call smark (sp)
call salloc (msg, 1023 , 2)
call sprinf (memc(msg), 1023 , st0001)
call pargsr (text)
call pargsr (ok)
call pargsr (cancel)
call ximmee (st0002, memc(msg))
call sfree (sp)
100 return
end
subroutine ximwre (messae, len)
integer len
integer*2 messae(*)
integer nleft
integer n
integer ip
integer*2 msgbuf(2047+1)
integer xstrln
integer fdin
integer fdout
integer mode
integer nbuf
integer nr
integer nw
integer*2 buffer(2047+1)
common /ximfd/ fdin, fdout, mode, nbuf, buffer, nr, nw
logical xerflg
common /xercom/ xerflg
integer*2 st0001(42)
save
integer iyy
data (st0001(iyy),iyy= 1, 8) /120,105,109, 95,119,114,105,116/
data (st0001(iyy),iyy= 9,16) /101, 58, 32, 39, 37, 46, 52, 53/
data (st0001(iyy),iyy=17,24) /115, 39, 32,108,101,110, 61, 37/
data (st0001(iyy),iyy=25,32) /100, 32,109,111,100,101, 61, 37/
data (st0001(iyy),iyy=33,40) /100, 32,116,111,116, 61, 37,100/
data (st0001(iyy),iyy=41,42) / 10, 0/
len = xstrln(messae) + 1
messae(len) = 0
if (.not.(mod(len,2) .eq. 1)) goto 110
len = len + 1
messae(len) = 0
110 continue
ip = 1
nleft = len
120 if (.not.(nleft .gt. 0)) goto 121
n = min (nleft, 2047)
call amovc (messae(ip), msgbuf, n)
if (.not.(mode .eq. 2)) goto 130
call achtcb (msgbuf, msgbuf, n)
call xfwrie(fdout, msgbuf, n / 2 )
if (xerflg) goto 100
goto 131
130 continue
call xfwrie(fdout, msgbuf, n)
if (xerflg) goto 100
131 continue
ip = ip + n
nleft = nleft - n
goto 120
121 continue
nw = nw + len
call xffluh(fdout)
if (xerflg) goto 100
if (.not.(.true.)) goto 140
call eprinf (st0001)
call pargsr (messae)
call pargi (len)
call pargi (mode)
call pargi (nw)
140 continue
100 return
end
integer function ximred (messae, len)
integer len
integer*2 messae(*)
integer i
integer n
integer nleft
integer xfread
integer fdin
integer fdout
integer mode
integer nbuf
integer nr
integer nw
integer*2 buffer(2047+1)
integer ximepa
integer ximstt
integer oldont
integer ximfd
integer ximjmp(64 )
logical xerpop
logical xerflg
common /xercom/ xerflg
common /ximfd/ fdin, fdout, mode, nbuf, buffer, nr, nw
common /ximcom/ ximfd, ximjmp, ximepa, ximstt, oldont
integer*2 st0001(42)
integer*2 st0002(40)
save
integer iyy
data (st0001(iyy),iyy= 1, 8) /120,105,109, 95,114,101, 97,100/
data (st0001(iyy),iyy= 9,16) / 58, 32,116,111,116, 61, 37,100/
data (st0001(iyy),iyy=17,24) / 32,108,101,110, 61, 37,100, 47/
data (st0001(iyy),iyy=25,32) / 37,100, 32,109,115,103, 61, 39/
data (st0001(iyy),iyy=33,40) / 37, 51, 48, 46, 51, 48,115, 39/
data (st0001(iyy),iyy=41,42) / 10, 0/
data (st0002(iyy),iyy= 1, 8) /120,105,109, 95,114,101, 97,100/
data (st0002(iyy),iyy= 9,16) / 58, 32,110, 98,117,102, 61, 37/
data (st0002(iyy),iyy=17,24) /100, 32,110,108,101,102,116, 61/
data (st0002(iyy),iyy=25,32) / 37,100, 32, 98,117,102,102,101/
data (st0002(iyy),iyy=33,40) /114, 61, 39, 37,115, 39, 10, 0/
if (.not.(nbuf .eq. 0)) goto 110
call aclrc (buffer, 2047)
nbuf = 0
call xerpsh
n = xfread(fdin, messae, 2047)
if (xerflg) goto 122
if (.not.(n .lt. 0)) goto 130
ximred = (-2)
goto 100
130 continue
122 if (.not.xerpop()) goto 120
call xerret()
call zdojmp (ximjmp, 504 )
120 continue
if (.not.(mode .eq. 2)) goto 140
len = n * 2
call achtbc (messae, messae, len)
goto 141
140 continue
len = n
141 continue
call amovc (messae, buffer, len)
if (.not.(buffer(len) .eq. 0 .and. buffer(len-1) .eq. 0))
* goto 150
nbuf = len
goto 151
150 continue
nbuf = len + 1
151 continue
buffer(nbuf) = -2
110 continue
i=1
160 if (.not.(buffer(i) .ne. 0 .and. buffer(i) .ne. -2 .and. i .le.
* nbuf)) goto 162
messae(i) = buffer(i)
161 i=i+1
goto 160
162 continue
messae(i) = 0
len = i
nleft = nbuf - i
nr = nr + len
if (.not.(buffer(i) .eq. 0 .and. buffer(i+1) .eq. -2)) goto 170
if (.not.(i .gt. 1 .and. nleft .gt. 1)) goto 180
call amovc (buffer(i+1), buffer, nleft)
180 continue
nbuf = 0
goto 171
170 continue
if (.not.(nleft .gt. 0)) goto 190
call amovc (buffer(i+1), buffer, nleft)
190 continue
nbuf = nleft
171 continue
if (.not.(.true.)) goto 200
call eprinf (st0001)
call pargi(nr)
call pargi (len)
call pargsr(messae)
call eprinf (st0002)
call pargi (nbuf)
call pargi(nleft)
call pargsr(buffer)
200 continue
ximred = (nleft)
goto 100
100 return
end
integer function ximinr ()
external ximzxn
integer ximepa
integer ximstt
integer oldont
integer ximfd
integer ximjmp(64 )
common /ximcom/ ximfd, ximjmp, ximepa, ximstt, oldont
save
call zlocpr (ximzxn, ximepa)
call xwhen (503 , ximepa, oldont)
call zsvjmp (ximjmp, ximstt)
if (.not.(ximstt .eq. 0)) goto 110
ximinr = (0)
goto 100
110 continue
ximinr = (-1)
goto 100
111 continue
100 return
end
subroutine ximzxn (vex, nexthr)
integer vex
integer nexthr
integer ximepa
integer ximstt
integer oldont
integer ximfd
integer ximjmp(64 )
common /ximcom/ ximfd, ximjmp, ximepa, ximstt, oldont
save
call ximdit (1)
call xerret()
call zdojmp (ximjmp, vex)
100 return
end
subroutine ximonr (status)
integer status
integer ximert
integer code
integer*2 buf(1023 +1)
integer*2 errmsg(1023 +1)
integer errget
integer ximepa
integer ximstt
integer oldont
integer ximfd
integer ximjmp(64 )
common /ximecm/ ximert
common /ximcom/ ximfd, ximjmp, ximepa, ximstt, oldont
integer*2 st0001(25)
save
integer iyy
data (st0001(iyy),iyy= 1, 8) / 73, 83, 77, 32, 69,114,114,111/
data (st0001(iyy),iyy= 9,16) /114, 44, 32, 99,111,100,101, 32/
data (st0001(iyy),iyy=17,24) / 37,100, 58, 10, 96, 37,115, 39/
data (st0001(iyy),iyy=25,25) / 0/
if (.not.(status .ne. 0)) goto 110
code = errget (errmsg, 1023 )
call sprinf (buf, 1023 , st0001)
call pargi (status)
call pargsr (errmsg)
call ximalt (buf, 0, 0)
call ximdit (1)
110 continue
100 return
end
c ximonr xim_onerror
c sprinf sprintf
c onerrr onerror
c ximstt ximstat
c ximmee xim_message
c messae message
c ximcot xim_connect
c connet connect
c ximinr xim_intrhandler
c ximalt xim_alert
c oldont old_onint
c ximecm ximecom
c ximred xim_read
c ximjmp xim_jmp
c sendqt send_quit
c eprinf eprintf
c nexthr next_handler
c ximzxn xim_zxwhen
c xerret xer_reset
c ximdit xim_disconnect
c ximwre xim_write
c pargsr pargstr
c ximert xim_errstat
|
